The US Navy is beginning to acknowledge a growing problem that threatens its freedom of the seas: its strike reach is shrinking and aging, while potential opponents’ attack reach is expanding and modernizing. As new designs replace older planes, US carrier aircraft range is shrinking to 1950s levels. Meanwhile, its anti-ship and land attack missiles are generally older, medium-range subsonic designs like the Harpoon Block I, which are vulnerable to air defenses. In contrast, China is deploying supersonic SS-N-22 “Sunburn” missiles bought from Russia, and working on a DF-21 anti-ship ballistic missile. The Sunburn is just one of Russia’s supersonic anti-ship missile options for sale, and a joint venture with India has added the supersonic PJ-10 BrahMos.

The math is stark: enemies with longer reach, and better weapons, may be able to create large “no go” zones for the Navy in key conflict areas. In response, think-tanks like CSBA are proposing ideas like AirSea Battle, which emphasizes a combination of advance hardening, more stealth and long-range strike options, and a progressive “blinding and grinding” campaign of strikes and interdiction. Success will require some changes to America’s array, beginning with the missiles that arm its ships and aircraft. Hence LRASM: the Long Range Anti-Ship Missile, with a secondary land-strike role.

Latest updates[?]: SpaceX aims to resume rocket flights in November following a launch pad fire that destroyed a Falcon 9 rocket and an Israeli communications satellite it was due to lift into orbit earlier this month. The company stated that it has suspended Falcon 9 flights until it completes its investigation into why the rocket burst into flames during fueling for a routine prelaunch test at Cape Canaveral Air Force Station in Florida. SpaceX had previously stated that a nearly-completed second launch site in Florida, located at NASA’s Kennedy Space Center (KSC), would be finished in November. The pad was last used to launch NASA’s space shuttles five years ago.

It’s a long way from the venture’s beginnings, when PayPal founder (and SpaceX CEO) Elon Musk noted that “The computer and Internet revolutions have given a great deal of capital to the ‘Star Wars’ fans.” SpaceX stuck to its original plan – giving private firms and government agencies that want to launch satellites a $6 million alternative to the cheapest existing rockets, which now cost $30 million per flight. Now, it’s branching out.

Consultants hired by the German government confirmed that its defense procurement is messed up because of poor corporate management and weak institutional culture: Deutche Welle | Süddeutschen Zeitung [in German].

Germany will make a decision [Reuters] next year on whether they’ll continue to develop MEADS.

The path toward a hypersonic space plane has been a slow one, filled with twists and turns one would expect given the technological leap involved. Speeds of Mach 8+ place tremendous heat and resistance stresses on a craft. Building a vehicle that is both light enough to achieve the speeds desired at reasonable cost, and robust enough to survive those speeds, is no easy task.

Despite the considerable engineering challenges ahead, the potential of a truly hypersonic aircraft for reconnaissance, global strike/ transport, and low-cost access to near-space and space is a compelling goal on both engineering and military grounds. The question, as always, will be balancing the need for funding to prove out new designs and concepts, with risk management that ensures limited exposure if it becomes clear that the challenge is still too great. In October 2008, the US Congress decided that FALCON/Blackswift had reached those limits. That decision led to the program’s cancellation, though some activities will continue.

Special Forces has had an abiding interest in silenced motorcycles as stealthy and quick insertion/extraction vehicles – and, not just from having viewed Chuck Norris’s 1986 cheesy Delta Force movie, where his trusty motorcycle was portrayed as a Batmobile-like source of plot moving tricks. Air force combat controller teams (CCTs) have been shoving dirt bikes out of airplanes at least since 2010. A 2012 Marine Corp report cited motorcycle use by MARSOC operators, and the Marines have been conducting dirt bike training by third party vendors contracted as early as February 2012. But the airdrop and landing can cause temporary fuel system issues at precisely the wrong moment.

Special Forces toyed with the electric Zero MMX concept a couple years ago, but ditched it due to battery concerns. That vehicle found a home at the LAPD a year later. The electric bike’s charge lasted for only a couple hours.

DARPA gave a grant to Logos Technologies around that time to develop a hybrid bike that could run on several fuels and also support an electric motor with about 50 miles of range. That grant was only $150,000. Things appear to have advanced adequately to have earned a second grant. A Logos representative contacted this morning indicated the new grant was for $1 million.

The bike, called now the Silent Hawk (not to be confused with the silenced SOF helicopters revealed in the aftermath of the 2011 Bin Laden operation), is based on an electric racing bike frame made by Alta Motors. The hybrid engine is Logos Technologies’ development, reportedly from one they developed for a secret drone project.

An example of the sound profile of current electric racing cycles can be seen in the video below. The bike used in the video is a Redshift model, the one employed by Logos for the first Darpa grant’s testing (although with a different engine than the one featured below):

In physics, a moire pattern is an interference pattern created when two grids are overlaid at an angle, or when they have slightly different mesh sizes. It’s an appropriate name for DARPA’s Membrane Optic Imager Real-Time Exploitation (MOIRE) project, which aims to use diffractive optic membranes to conduct tactical video surveillance from space. That’s very useful when looking at territory where an intruding UAV is likely to be shot down, or when conducting operations to find, say, mobile SCUD missiles within a large potential area.

Making that happen involves a 20-meter diameter optic membrane surveying an area of more than 10 x 10 km at least once a second, with ground resolution better than 2.5 meters, and the ability to detect moving vehicles. Field of regard would be larger, of course, at 10 million square kilometers that could be covered from geosynchronous orbit. Finally, all of this has to cost less than $500 million per copy. How hard could all that be? Hard enough for DARPA, apparently…

In 2009, the US Defense Advanced Research Projects Agency (DARPA) began awarding contracts for innovative research proposals under its Terahertz (THz) Electronics Program. Readers will probably be asking the same question that crossed our mind: “when can I expect this in my laptop?”

Chip frequency has stalled out as a measure of computing power, but DARPA has a long history of helping to fund computing breakthroughs – from that minor nuisance we call the Internet to modern work on Gallium Nitride (GaN) semiconductors, non-thermionic transistors, research into graphene circuits, and more. Now, their Terahertz (THz) Electronics program is looking for technologies to enable revolutionary advances in electronic devices and integrated circuits, allowing them to reach THz frequencies of at least a trillion cycles per second…

Recent years have seen a variety of unmanned helicopter options introduced into the market. Boeing’s entry lays a breathtaking challenge before the field: what could the military do with a helicopter-like, autonomously-flown UAV with a range of 2,500 nautical miles and endurance of 16-24 hours, carrying a payload of 1,000-2,500 pounds, and doing it all more quietly than conventional helicopters? For that matter, imagine what disaster relief officials could do with something that had all the positive search characteristics of a helicopter, but much longer endurance.

Enter the A160 Hummingbird Warrior (YMQ-18), which was snapped up in one of Boeing’s corporate acquisition deals. It uses a very unconventional rotor technology, and Boeing’s Phantom Works division continues to develop it as a revolutionary technology demonstrator and future UAV platform. With the Navy’s VTUAV locked up by the Northrop Grumman MQ-8B Fire Scout, Boeing’s sales options may seem thin. Their platform’s capabilities may interest US Special Operations Command and the Department of Homeland Security, and exceptional performance gains will always create market opportunities in the civil and military space. At least, Boeing hopes so.

Readers who follow the tech press may be familiar with the concept of quantum computing. Computers use binary bits: on/off, yes/no, represented by 0 or 1. A quantum bit, or qubit, can be 1, or 0… or both. Whereas 111 = 7 in binary, and each number is a single choice among all the possibilities in the number of binary digits, 3 qubits can hold all 8 possibilities (0-7), which means you can do calculations on all of them at once. The more qubits used, the more computation, so 32 qubits theoretically gets you 2 to the 32nd power computations (about 4.3 billion) at once – much more power than conventional computing, and it keeps on rising exponentially.

It’s worth noting that quantum computing has limits, and areas where it will not be suitable for computing tasks. They are not fully understood yet, but have been shown to exist at the theoretical level. So far, all we can say is that certain kinds of problems will be solved much, much more quickly. The uses of such a system for searching large domains of information, cracking codes, creating codes, or running simulations that include the quantum level (as a number of modern physical and medical science applications do) are clear. As an additional benefit, quantum cryptography methods benefit from quantum principles. Eavesdropping is not only incredibly difficult, it will create noticeable interference.

Various American agencies continue to be interested in the field, which has also begun finding commercial applications.